file3

... • Correlated mRNA Expression Patterns: Correlated mRNA Expression Patterns under different growth conditions • Correlated Patterns Of Domain Fusion: Link 2 proteins whose homologs are fused into a single gene (Rosetta stone sequences) in another organism. ...

THE ORGANIZATION AND CONTROL OF EUKARYOTIC GENOMES

... elements so the combination of control elements regulates gene action • Different combos of activators (transcription factors) makes different genes turn on • Different genes can be turned on by same activator ...

6CellCommunication

... • The 3 stages of cell communication. • How G-protein-coupled receptors receive cell signals and start transduction • How a cell signal is amplified by a phosphorylation cascade. • An example of a second messenger and its role in a signal transduction pathway. • How a cell response in the nucleus tu ...

PowerPoint slides

... • Like transcriptome, consider proteome as a phenotype • Hence, gene and environmental interaction • Useful, given high individual differences in protein function in different tissues – Protein trait: differences in quantity of protein in different tissues ...

Slide 1

... determine the location of the proteins in the cells, fusion proteins with fluorescent proteins were assembled for each gene and transformed into Arabidopsis thaliana protoplasts. Cells transformed with the pGDmR::AtSNX2a construct showed expression but did not provide evidence for the location of th ...

Заголовок слайда отсутствует

... specifically blocks gene expression; coding DNA is shut down when repressor protein binds to an upstream DNA repressor sequence. 27 The repressor is released when its other site binds a low molecular weight inducer molecule. Specifically, expression of -galactosidase (and two adjacent genes) is inh ...

Regulatory Molecular Biology

... specifically blocks gene expression; coding DNA is shut down when repressor protein binds to an upstream DNA repressor sequence. 27 The repressor is released when its other site binds a low molecular weight inducer molecule. Specifically, expression of -galactosidase (and two adjacent genes) is inh ...

Word - LangdonBiology.org

... together. What type of bonds must be present in lithium chloride? What functional group is found on sugars that make them dissolve in water? Many ionic attractions disassociate (break apart) in water, like lithium chloride. Covalent molecules do not break apart, as in the sugar. However, if there ar ...

ď - Google Sites

... 19. The relative sizes of viruses, bacteria, and human cells when compared to each other. 20. Why is HIV difficult to treat? 21. The elements that make up carbohydrates, proteins, and lipids. 22. What does 1 glycerol and 3 fatty acids together make. 23. Some examples of simple sugar, carbohydrates, ...

Unit 3 Exploration Guide SOL: LS.2, LS.3, LS.5, and 6.5 Previous

... compounds. 20. Describe the structure and function of water. 21. Describe the structure and function of the cell membrane. 22. Compare and contrast passive and active transport. 23. Explain what happens to a cell put into an environment with more, less, or equal amounts of water than is inside the c ...

Method 1

... Samples treated with the Bradford assay. The brown sample (lower absorbance) contains no protein, while the blue sample (higher absorbance) contains protein. The amount of protein in the second sample can be determined by comparison to a standard curve ...

The Central Dogma: A Journey Down a One

... But other functions will be different, for example the heart cell has to contract and probably uses glucose faster for the energy needed for contraction. And skin cells need to do other things like making sweat glands. ...

Classification of Protein

...  To repair worn or wasted tissue (tissue repair and maintenance) and to rebuild new tissue (as new protein and growth).  Dietary protein may be catabolized as a source of energy, or may serve as a substrate for the formation of tissue carbohydrates of lipids.  Dietary protein is required within t ...

11.4.14 KEY - Iowa State University

... 5. LacI+ is (dominant/recessive) to LacI-. This is because LacI acts (cis/trans). 6. Explain why mutations in the lacO gene are cis in their effects. 7. Describe the three different types of mutations that are possible in structural genes. 1. gene product is present and inactive due to mutation, su ...

Powerpoint Presentation: Gene Transfer

... Plasmid introduced into bacterial cell  Every time the bacterium divides the plasmid is replicated too  Gene expressed by the bacterium  Same protein is synthesised  Universal genetic code  Human proteins can be produced by bacteria  E.g. Humulin (Human Insulin) E.g. Human somatotropin (growth ...

Dairy Jepoardy 3

... Term that describes a gene or DNA fragment known to be linked to a gene of interest. ...

The Cytoplasm The Cytosol a Viscous watery fluid which all the

... • Inner membrane has folds called cristae • It is in the inner membrane that the enzymes responsible for the production of ATP is concentrated ! Space between cristae called the matrix ! Contains enzymes ...

www.rcsd.k12.ca.us

... carbon atoms surrounded by as many hydrogen atoms as possible (bad guys – solid at room temp) Unsaturated fats have double carbon bonds instead of so many bonds with hydrogen (good guys) Hydrogenated fats have had hydrogen added to unsaturated fats. ...

Study Guide for Understanding the Concept of Protein Synthesis

... Transfer RNA (tRNA) acts as a "taxi" by which the "escort" ribosomes take the amino acids and position them into place as Ribosomal RNA (rRNA). Step #5: Ribosomes: From the rRNA, the amino acids continue their journey within the cytoplasm, resting on "floating" ribosomes or on the Rough ER. These ri ...

Recombinant Human COL9A3 protein ab158167 Product datasheet 1 Image Overview

... GDLGRPGPKGTPGVAGPSGEPGMPGKDGQNGVPGLDGQKGEAGRNGAPGE KGPNGLPGL ...

Purification

... complementation in a microorganism or tissue culture cell (usually must be mutant, or missing) Inhibition of function in a microorganism or tissue culture cell ...

Protein composition and phosphorylation of diatom thylakoid

... part of a flexible and rapid signal transduction in cells in answer to changes in the environment, especially light. So far, there are no extensive studies of the protein phosphorylation pattern of diatom thylakoids. ...

Document

... Rapid and efficient communication between neurons of the brain occurs at specialized cellular structures called synapses. An important molecular component of synapses is the protein piccolo. Piccolo is a large (>550 kDa) multi-domain protein and a member of the family of proteins involved in the org ...

Helices From Readily in Biological Structures

... extracellular matrix that helps cells bind together to form a tissue. These proteins are secreted by the cells into surroundings, where they often assemble into sheet or long fibrils. Collagen is the most abundant of these fibrous proteins in animal tissues. The collagen molecule consists of three l ...

Chapter 4: Oncogenes Oncogenes

... phosphorylate each other – Over expression of RTKs in tumor cells favors dimer formation and sensitizes cells to lower concentrations of ligand growth factors » May lead to ligand INDEPENDENT growth by having too many receptors that become active whether ligand is present or not » Point mutations ty ...

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Protein moonlighting

Protein moonlighting (or gene sharing) is a phenomenon by which a protein can perform more than one function. Ancestral moonlighting proteins originally possessed a single function but through evolution, acquired additional functions. Many proteins that moonlight are enzymes; others are receptors, ion channels or chaperones. The most common primary function of moonlighting proteins is enzymatic catalysis, but these enzymes have acquired secondary non-enzymatic roles. Some examples of functions of moonlighting proteins secondary to catalysis include signal transduction, transcriptional regulation, apoptosis, motility, and structural.Protein moonlighting may occur widely in nature. Protein moonlighting through gene sharing differs from the use of a single gene to generate different proteins by alternative RNA splicing, DNA rearrangement, or post-translational processing. It is also different from multifunctionality of the protein, in which the protein has multiple domains, each serving a different function. Protein moonlighting by gene sharing means that a gene may acquire and maintain a second function without gene duplication and without loss of the primary function. Such genes are under two or more entirely different selective constraints.Various techniques have been used to reveal moonlighting functions in proteins. The detection of a protein in unexpected locations within cells, cell types, or tissues may suggest that a protein has a moonlighting function. Furthermore, sequence or structure homology of a protein may be used to infer both primary function as well as secondary moonlighting functions of a protein.The most well-studied examples of gene sharing are crystallins. These proteins, when expressed at low levels in many tissues function as enzymes, but when expressed at high levels in eye tissue, become densely packed and thus form lenses. While the recognition of gene sharing is relatively recent—the term was coined in 1988, after crystallins in chickens and ducks were found to be identical to separately identified enzymes—recent studies have found many examples throughout the living world. Joram Piatigorsky has suggested that many or all proteins exhibit gene sharing to some extent, and that gene sharing is a key aspect of molecular evolution. The genes encoding crystallins must maintain sequences for catalytic function and transparency maintenance function.Inappropriate moonlighting is a contributing factor in some genetic diseases, and moonlighting provides a possible mechanism by which bacteria may become resistant to antibiotics.

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Protein moonlighting